Video transcript

- Check out this speaker. If we plug it in, it makes sound. (speaker hums) The way this speaker
creates sound is by moving the front of the speaker,
which is called the diaphragm, back and forth rapidly. Scientists often use the
word oscillation to refer to the back and forth motion of an object. This speaker is oscillating too fast for the human eye to see, but if I put a piece of
paper on the speaker, we see that because the
diaphragm is oscillating, it's bumping into this piece of paper and causing it to dance. The oscillation of the diaphragm will also cause the air in front of the diaphragm to move back and forth, but
here's the interesting thing. The air in front of the diaphragm doesn't actually travel
away from the speaker. The air molecules in front of the speaker just oscillate back and forth. So, how can you hear
the sound from a speaker if the air next to the speaker doesn't actually make it to your ear? Well, the reason is
that the oscillating air in front of the speaker causes the air in front
of it to also oscillate. This causes the air in front of that air to start oscillating, which causes the air in front
of it to start to oscillate, until finally, the air that's
actually next to your ear and your eardrum starts to
oscillate back and forth. This oscillating air that's
next to your ear is moving, so it has kinetic energy. So, it can transfer
energy into your eardrum, which you can perceive as sound. So, this speaker was able to transport energy through the air, without actually having to
transport the air itself. This is an important enough
fact for me to state again. Energy is traveling across the room here, but air itself is not
traveling across the room. Only the disturbance within the air is traveling across the room. If air were being
transported across the room, it'd be better characterized
not as sound but as wind. So, this is why we call
sound a sound wave, because it shares the
defining feature of waves, which is being able to transport
energy through a medium without having to transport
the medium itself. Medium is a fancy word for
the material or substance through which a wave is traveling. Air is typically the medium for situations involving sound waves, but sound waves can travel through all kinds of different materials, like water, metal, or
even human flesh and bone, and the fact that sound can travel through human flesh and bone explains something you might
have always wondered about, which is, why do our voices sound (changes voice) so different
on audio and video recordings? The reason for this is that
when we're speaking to someone we actually hear two
contributions from our voice. We hear the sound wave
traveling out of our mouth, through the air, and into our ear, but we also hear the
vibration of the sound wave traveling through our flesh and bone, through our skull, and into our eardrum. But on an audio or video recording, the only part that's recorded is the sound that travels through the air. So, when you hear your voice played back on an audio recording, you only
hear what other people hear when they listen to you. So, the bad news is that, yes, what you hear on audio recordings is actually what you sound
like to other people, but the good news is
that most of your friends probably don't think it sounds weird, since that's the only voice
they've ever heard you use, unless you do (changes voice)
actually have a weird voice, in which case, I'll risk
sounding pretentious by reminding you that you
shouldn't waste a lot of time worrying about what other
people think of you anyways. (techno music)